TOC-V Series - Shimadzu Scientific Instruments

C391-E058K
TOC-V
Ser ies
Shimadzu
Total Organic Carbon Analyzer
Shimadzu's World-leading TOC Analyzers
Total solutions for all aims and conditions
Comprehensive 8-model line-up for both laboratory
and on-line use
Comprehensive selection of options enables the analysis of a wide range of samples, including ultrapure water and
polluted water, as well as solid and gas samples.
L a bo ra t o ry M o d els
C o mb u s t i o n ca taly tic o xid atio n/NDIR met hod
TOC-VCSH
TOC-VCSN
TOC-VCPH
TOC-VCPN
TOC-VE
Standalone
high-sensitivity model
Standalone
standard model
PC-controlled
high-sensitivity model
PC-controlled
standard model
Standalone
O p ti o n
Auto sampler ASI-V
(Reference page : P12)
2
8-Port Sampler OCT-1
(Reference page : P13)
TOC has been adopted in various fields as an
accurate quick indicator of total organic content.
Study and monitoring of organic contamination of
rivers, lakes, dams, and other water in the natural
water cycle.
Environmental and biotechnology research and R&D
at test organizations.
Control of purified or recycled water for the
semiconductor, pharmaceutical, water-washing
system, or nuclear power industries.
Water quality control of industrial effluent and
sewage plant effluent and operation management for
effluent processing.
*Compliance with FDA 21 CFR part 11 (CPH, CPN, and WP models).
Process control of the organic content in water at all
types of factory.
Study and monitoring of the degree of contamination
of soil, sludge, and sediments.
On- line M odels
W e t c h e mi ca l o xid atio n /N D IR met hod
Combustion catalytic oxidation/NDIR method
TOC-VWS
TOC-VWP
ON-LINE TOC-VCSH
Standalone
PC-controlled
Standalone
high-sensitivity model
TN ( Total Nitrogen Unit ) TNM-1
(Reference page : P14)
Solid sample combustion unit SSM-5000A
(Reference page : P15)
3
Total Organic Carbon
Measurement is
C omb u s t i o n ca taly tic o xid atio n /NDIR met hod
TOC-VCS
TOC-VCP
The key point about a TOC analyzer is whether it can efficiently oxidize hardto-decompose insoluble and macromolecular organic compounds, not just
the easily decomposed, low molecular weight, organic compounds.
The 680°C combustion catalytic oxidation method, that was developed by
Shimadzu and subsequently spread round the world, can efficiently analyze
all organic compounds.
Example: TOC Oxidation
Performance Evaluation Test
Evaluation using the method prescribed in the European
Standard, Determination of samples containing particles
(EN1484 Annex C).
Test solution: TOC 100 mgC/L suspension of 20 to 100+m
cellulose (Ultrasonic treatment should not be used.)
Measurement method: 3 repeated measurements during stir
with a magnetic stirrer.
Evaluation criteria: Mean measured value between 90 and
110 mgC/L. CV (coefficient of variation) should be < 10%.
Test results
Using TOC-VCPH
Mean measured value: 98.64 mgC/L CV: 2.43%
Using TOC-VCPH + ASI-V (incorporating magnetic stirrer)
Mean measured value: 99.41 mgC/L CV: 1.70%
Proof of accurate measurement of
cellulose suspension with high recovery
TOC-VCSH
Extremely wide range from 4+g/L to 25,000
mg/L for applications from ultrapure water to
highly contaminated water.
Combination of highly sensitive NDIR with a high-volume sample
combustion system achieves sub-10
+g/L level TOC analysis.
Specify the blank check program to automatically conduct the blank
check by creating and analyzing ultrapure water inside the system.
High concentration samples are analyzed by diluting to 25,000 mg/L
by the built-in automatic dilution function.
Simultaneous TOC and TN (Total Nitrogen) analysis
(with TN unit).
Note: In the case of simultaneous TOC and TN analysis, TOC high sensitivity
analysis using high sensitivity catalyst is impossible.
Use compressed air
(with carrier gas purification kit).
Analyze gas and solid samples as well as liquids
(with gas sample injection kit or solid sample combustion unit).
4
Shimadzu's Forte
Combustion catalytic oxidation/NDIR method
TOC-VE
Basic model,
incorporating all
essential functions.
TOC analyzer with
priority on easy
measurement through
manual sample injection
and simple operations.
TOC-VCPH
Further evolution of the automatic sample
injection system
Syringe with sparging function
Efficient, automatic acidification and sparging for NPOC
measurements reduces measurement time by approximately 40%
(compared with other Shimadzu products).
Automatic dilution reduces salinity, acidity, and alkalinity to
considerably extend the maintenance period for the catalyst and
combustion tube. (Maintenance period depends on the sample
and measurement conditions.)
Dual flow line washing methods: rinsing with sample or rinsing
with dilution water.
Sample intake tubes provided for individual TOC analyzer
measurements during Autosampler use.
The essential part of the system - the combination
of 680°C combustion catalytic oxidation with
newly designed high-sensitivity NDIR - is identical
to TOC-VCS/CP.
Simple analysis using an LCD and
keyboard designed for ease of operation.
System can be upgraded with a TN unit
(for simultaneous TOC and TN measurements).
System can be upgraded with a TN unit
(for simultaneous TOC and TN measurements).
Special Accessories
Select a microliter syringe to suit the application.
P/N
Multi-function sample pretreatment /
injection system
Description
Comment
638-60733-01
Microsyringe MANU10
for 10+L
638-60733-02
Microsyringe MANU25
for 25+L
638-60733-03
Microsyringe MANU50
for 50+L
638-60733-04
Microsyringe MANU100
for 100+L
638-60733-05
Microsyringe MANU250
for 250+L
5
Principle of the Combustion Catalytic
C omb u s t i o n ca taly tic o xid atio n /NDIR met hod
Measurement flow line diagram
TOC-VCSH
Autosampler
ASI-V
Acid
Printer
LCD
Dilution water
Multi-function
sample pretreatment/
injection system
Sample
Carrier gas
inlet
Keyboard
Drain
Sparge
gas
TC injection port,
Gas flow
slide type Blank check
rate
ultrapure water
controller Carrier gas
trap
Data
processor
IC injection port,
slide type
Dehumidifier/
gas pretreatment unit
RS-232C
TC combustion tube
IC reagent
TC furnace
TOC-VCPN
Autosampler
ASI-V
IC reaction vessel
Acid
Non-dispersive
infrared detector
(NDIR)
Dilution water
Multi-function
sample pretreatment/
injection system
Drain
Data
processor
Sample
Carrier gas
inlet
Sparge
gas
TC injection port,
Gas flow
slide type
rate
controller Carrier gas
TC combustion tube
RS-232C
Dehumidifier/
gas pretreatment unit
Blank check
ultrapure water
trap
TC furnace
6
Personal computer
(Not included with
TOC analyzer.)
Non-dispersive
infrared detector
(NDIR)
TC (Total Carbon) Measurement
IC (Inorganic Carbon) Measurement
Carrier gas (purified air) is passed at a controlled flow rate of 150
mL/min through an oxidation catalyst-filled TC combustion tube,
heated to 680°C. When the sample pretreatment/injection system
injects the sample into the combustion tube, the TC in the sample is
oxidized or decomposes to create carbon dioxide. The carrier gas
carrying the combustion products from the combustion tube is cooled
and dehumidified in the dehumidifier before passing via the halogen
scrubber into the sample cell of the non-dispersive infrared detector
(NDIR), where the carbon dioxide is detected. The NDIR analog signal
forms a peak, and the data processor calculates the peak area.
To measure the TC concentration of the sample, the relationship
between the TC concentration and peak area (calibration curve) is
predetermined using a TC standard solution, to express the peak area
as a ratio of the TC concentration.
TC comprises TOC (Total Organic Carbon) and IC (Inorganic Carbon).
The acidified sample is sparged with the carrier gas (purified air) to
convert only the IC in the sample to carbon dioxide. This carbon
dioxide is detected by the NDIR and the sample IC concentration is
measured in the same way as TC.
The IC is a combination of carbonate and bicarbonate.
TOC (TC-IC) Measurement
Subtracting the IC concentration from the TC concentration
determines the TOC concentration.
Oxidation/NDIR TOC Analyzer
Measurement flow line diagram
TOC-VE
Printer
LCD
Sparge
gas
Sample
(being sparged)
Carrier gas
inlet
Gas flow
rate
controller Carrier gas
Keyboard
TC Injection part
open/close type
Data
processor
IC Injection part
septum type
Non-dispersive
infrared detector
(NDIR)
TC combustion tube
IC reagent
TC furnace
NPOC Measurement (TOC by acidification/
sparging method)
A small amount of hydrochloric acid is added to acidify the sample
and the sample is sparged with sparge gas. This converts all IC in
the sample to carbon dioxide and drives the CO2 out of the sample
solution. The TOC concentration is determined by measuring the TC
of the sample after the IC is eliminated.
NPOC measurement is equivalent to TOC measurement using
acidification and sparging (IC elimination) defined for official test
methods (EPA, ASTM, EN, etc.). As any purgeable organic
compounds may be lost from the sample during sparging, the TOC
measured by this method can be called NPOC (Non-Purgeable
Organic Carbon).
POC (Purgeable Organic Carbon) Measurement
POC measurement is the measurement of the TOC of the organic
carbon driven from the sample by the sparge gas in the sparging
process during NPOC measurement. The CO2 component in the
sparge gas is eliminated when the sparge gas passes through the
CO2 absorber. The POC is then oxidized in the POC combustion
tube to create carbon dioxide, which is detected by the NDIR.
This data is processed in the same way as in TC measurement.
TOC (NPOC + POC) Measurement
The TOC concentration is obtained by adding the POC concentration
to the NPOC concentration.
Dehumidifier/
gas pretreatment unit
IC reaction vessel
TN (Total Nitrogen) Measurement
Carrier gas (purified air) is passed at a controlled flow rate of 150
mL/min through a combustion tube that is filled with thermal
decomposition catalyst and heated to 720°C. When the sample
pretreatment/injection system injects the sample into the combustion
tube, the TN in the sample thermally decomposes to create nitrogen
monoxide. The carrier gas carrying the nitrogen monoxide from the
combustion tube is cooled and dehumidified in the dehumidifier
before passing into a chemiluminescence detector, where the
nitrogen monoxide is detected. The chemiluminescence detector
utilizes the gas-phase chemiluminescence of ozone and nitrogen
monoxide, such that the detected nitrogen monoxide analog signal
forms a peak. To measure the TN concentration of the sample,
the relationship between the TN concentration and peak area
(calibration curve) is predetermined using a TN standard solution,
to express the peak area as a ratio of the TN concentration.
TOC/TN Measurement
After acidification and sparging to eliminate IC, the sample is
injected into the combustion tube, where the TN decomposes and
the TOC (NPOC) of the sample simultaneously is oxidized to form
CO2. This carbon dioxide is detected by an NDIR connected in
series with the chemiluminescence detector. The series connection
between the NDIR and the chemiluminescence detector allows the
nitrogen monoxide and carbon dioxide generated from a single
sample injection to be simultaneously detected.
7
Shimadzu Wet Oxidation TOC Analyzers Aim for High
W e t o x i d a t i o n /N D IR me th o d
TOC-VWS
TOC-VWP
TOC-VWS
TOC-VWP
Newly designed high-sensitivity NDIR
achieves ultrahigh sensitivity measurements.
Powerful oxidation through a combination of
peroxosulfuric acid, UV illumination, and heating.
Sensitivity and accuracy enhanced by
minimizing the reagent blanks that hinder
accurate analysis.
No need of purging of reagent bottle
reduces consumption of carrier gas.
Me a s u re m e n t P rin cip le
8
TC Measurement
TOC Measurement
Phosphoric acid and the oxidant (persulfate) are added to the sample,
which is heated under UV illumination to convert the TC in the sample
to carbon dioxide. This carbon dioxide flows with the carrier gas via
the dehumidifier into the NDIR sample cell. The area of the carbon
dioxide peak signal is measured and this peak area is converted to
TC concentration using a pre-prepared calibration curve.
Subtracting the IC concentration from the TC concentration
determines the TOC concentration.
IC M easurement
NPOC Measurement
The sample is acidified with phosphoric acid and sparged to convert
the IC in the sample to carbon dioxide. This carbon dioxide is
detected by the NDIR and the sample IC concentration is measured
in the same way as TC.
The sample is acidified with phosphoric acid and sparged to
eliminate the IC. The NPOC concentration is determined by
measuring the TC (=NPOC) of the sample after the IC is eliminated,
using the same method as for TC measurement.
Sensitivity with Great Oxidation Performance
T ra c e l e v e l T OC mea s u reme n t in
U l t ra - p u re wa ter.
High accuracy measurement of TOC
as low as 2+g/L(ppb)
Conditions
Analyzer
TOC-VWS
Principle
TOC measurement by IC removal
(acidifying and sparging)
Injection volume
20.4mL
Number of measurements
5
Results
Nuamber
Results(+g/L)
#1
2.31
#2
2.27
#3
2.52
#4
2.47
#5
2.49
mean
2.41
SD
0.114+g/L
CV
4.73%
Measurement flow line diagram
TOC-Vws
Keyboard
Gas flow
rate
controller
Carrier gas
inlet
Acid
Oxidant
Printer
LCD
Data
processor
Dehumidifier/
gas pretreatment unit
Carrier gas
Non-dispersive
infrared detector
(NDIR)
Dilution water
Oxidation reactor
(UV illumination, heating)
Autosampler
ASI-V
IC sparger
Drain
Sample
9
S Model with Screen and Keyboard or P Model Under PC
S Models
TOC-VCS
The combination of simple, easily operated keyboard and large LCD makes
these models easy to use.
TOC-VWS
A separate window for each measurement condition
setting item enhances clarity and ease of input.
Helpful operation guides are displayed.
Frequently used functions such as calibration,
measurement, and ASI measurement are assigned
dedicated keys to reduce operations.
The method function registers measurement
conditions.
Fe a t u re s (Common to S and P Models)
Automatic setting of optimal measurement
conditions
When creating the calibration curve, the optimal measurement conditions
are displayed when the standard solution concentration is set.
Detailed calibration curve information can easily be referenced when
setting the measurement conditions.
Automatic condition changing and
re-analysis of out-of-range samples
If the sample peak goes over the calibration curve range,
measurement conditions such as dilution rate and injection volume
are automatically changed and the analysis is repeated.
10
Automatic selection of the best calibration curve
Up to three calibration curves can be set for sample measurement.
The optimal calibration curve is selected for the sample and the
sample measurements are conducted using these measurement
conditions.
Control Select the Model that Suits your Application
P Models
TOC-VCP
TOC-VWP
All TOC analyzer operations, control, and data collection can be conducted by a
personal computer.
Enhanced software security functions support FDA 21 CFR Part 11.
PC Specifications for PC Control (P Model)
CPU
Video functions
OS
Main memory
Hard disk
External storage
medium
Pentium 400 MHz, or above.
(800 MHz recommended for Part 11 compatibility.)
SVGA (800 x 600 dots min.)
(1024 x 768 dots min. recommended)
Windows 2000/XP Professional
Capacity required by OS + 64 MB min.
20 MB min. for installation
CD drive (CD-R drive for Part 11 compatibility.)
* Adobe Acrobat for Windows is also required for Part 11 compatibility.
Wizards allow simple input of measurement and
calibration settings.
User authentication, user authority level restriction,
and operation history functions ensure data reliability.
Combination with the Shimadzu CLASS Agent datamanagement software provides customer support for
Part 11 compatibility.
All information is stored as files in the personal
computer for reference and re-use.
The measurement conditions and results can be output
to EXCEL or other application software or input from
other application software.
Automatic exclusion of anomalous values
and re-calculation of repeated analyses
The mean value, standard deviation, and coefficient of variation are
displayed and printed during repeated analyses. Anomalous values
can be automatically eliminated and re-calculated.
Convenient automatic power off function
Automatic power off after electric furnance cools down ensures
power is not left on and saves energy.
Comprehensive calibration system handles
many uses
Output is linearized for all range.
Calibration curve can be created to compensate for TC in water
used for standard solution adjustment.
A maximum of 25 (model S.) (model P has no limit) calibration
curves can be stored and recalled. All calibration curve data can
be displayed and recorded.
11
Accessories Evolved in Parallel with
A uto s a m p l e r
ASI-V
Enhanced features and convenience with easier operation
Combining the ASI-V automatic sample injector with a TOC-V Series
analyzer (except TOC-VE) creates a fully automatic analysis system.
Fe a t u re s
Three sample vial capacities are available. Select the
sample vial and sample rack to suit the analyzed
sample.
•
•
•
•
9 mL vials x 93
24 mL vials x 93
40 mL vials x 68
125 mL vials x 24
Optional magnetic stirrers agitate the sample in the
vials to prevent settling of suspended solids.
(Applicable to 24 mL and 40 mL vials.)
Combination
TOC-Vcs/cp
24 or 40mL vials
TOC-Vws/wp
40 or 125mL vials
Sample at measurement position
Sample at pre-measurement position
All three vial types have a well sealed septum that
can be easily replaced with the screw cap.
The sampling needle is optimized for sample
extraction from highly-sealed vials and for sparging.
Changing analysis conditions or adding sample vials
during analysis is simple. System operation and
carrier gas flow can be automatically stopped on
completion of measurements.
Creating multiple calibration curves and selecting the
optimal curve for samples with significantly differing
concentrations allows these samples to be analyzed
in a single run.
Rinsing both external and internal surfaces of the
sampling needle prevents carryover between
samples.
12
Example shows 40 mL vials.
Magnetic stirrers are installed for the samples at the
measurement position and previous position to
provide powerful agitation prior to measurement.
Note: Magnetic stirrers works for only from #1 to #85 vials among all 93 of
them, in the case of using 24mL vials.
the TOC Analyzers
8- Port Sampler OCT- 1
Sparging for NPOC measurement, the
most frequently conducted analysis, can
be selected from the following three types
(if the external sparging kit is used).
OCT-1
The bridge to ultra-simplified auto
analysis
(for trace TOC measurements in purified water)
Consecutive sparging and measurement
Sparged sample to
TOC analyzer
Sparge gas from
TOC analyzer
Direction of vial feed
(Can be used for all measurements except trace TOC measurement. )
Parallel sparging and measurement
Sparge gas
Sparged sample to
TOC analyzer
Bringing you an innovative but inexpensive autosampler that
automates your analyzer system.
Setup is extremely easy, because special vials are not
needed.
Ot her Feat ures of t he OCT- 1
Compact,straightforward
configuration using an 8port valve.
Direction of vial feed
(Can bensed for NPOC measurement of
low-concentration TOC samples such as river water,
lake and marsh water, sea water, or tap water.)
Parallel sparging and measurement
(Sparging at measurement position prevents
re-absorption of atmospheric CO2 into the sample.)
Sparge gas
Sparged sample to
TOC analyzer
Sparge gas
Commercially available
stirrers can be used with
the OCT-1.
Up to 2 OCT-1 units can
be connected to a single
TOC-V. As 8 sample
containers can be loaded
on a single OCT-1 unit, as
many as 16 samples can
be handled if 2 OCT-1
units are connected.
TOC-V series products
currently in use (except
for TOC-VE) can be
automated by being
combined with the OCT-1.
Direction of vial feed
13
Accessories Evolved in Parallel with
TN unit
TNM-1
Combining the TNM-1 with a TOC-VCS/CP analyzer creates a
TOC/TN simultaneous analysis system.
Fe a t u re s
Combustion tube and oxidation catalyst are shared
with TOC analysis, such that maintenance is virtually
identical to dedicated TOC use. Maintenance is
simple as no oxidant or other reagent is required.
Sample
NO (nitrogen monoxide) is measured by Shimadzu's
tried and tested chemiluminescence method.
TN
TOC
NO
CO2
Measurements over a wide range up to 4000 mg/L.
Note: In the case of simultaneous TOC and TN analysis, TOC high sensitivity analysis using
high sensitivity catalyst is impossible.
Si m u l t a n e o u s me a s u reme n t o f TOC and TN
TC measurement
NDIR
CO2
measurement
TN measurement
TOC
concentration
NO
measurement
Chemiluminescence
detector
14
TN concentration
the TOC Analyzers
So l i d s a mp l e c o mb u stio n u n it
SSM-5000A
Combining the SSM-5000A with a TOC-VCS/CP or a TOC-VWS/WP analyzer permits analysis of
many solid samples in addition aqueous samples, including soil, sludge, and sediments.
Carbon measurement in attached residues using the swab method can be conducted for
cleaning validation.
The above photo shows a combination of the SSM-5000A with the TOC-VCSH.
F e a t u re s
Analysis of 1 g samples with up to 30 mg carbon content
reduces weighing errors or errors due to the uneven
distribution of the sample carbon content.
Aqueous samples containing large amounts of
suspended matter can be analyzed by inputting the
sample in a sample boat.
The use of unique tandem measurement cells, combining a
long cell to measure aqueous samples and a short cell for
solid samples, permits a single TOC analyzer unit to handle
a range from several 10 ppb TOC in ultrapure water to
several 10% TOC in solid samples.
Switching between TOC-VCS/CP or TOC-VWS/WP
analysis of aqueous samples and SSM-5000A
measurements of solid samples is achieved by
simple screen settings.
Measurement of inorganic carbon (carbonate) in solid
samples is also easy.
The SSM-5000A can be attached to a TOC-VCS/CP or
TOC-VWS/WP unit with Autosampler installed. (Automatic
measurement of solid samples is not possible.)
Swab method for cleaning validation
Swab sampling
Transfer to sample boat.
TC measurement
Residue evaluation procedure using swab sampling with quartz microfiber filter paper and direct combustion carbon analysis
Please contact Shimadzu or it's agents in your area for further information.
15
Options
S pe c i a l A c c e s s o ries
Carrier Gas Purification Kit
Part number 638-41447-01
Compressed air supplied as instrument air or compressor air, for example, can be used as
the carrier gas after elimination of the carbon-containing impurities, such as carbon dioxide
and hydrocarbons. This kit is suitable for samples with TOC of 0.5 mg/L (0.5 ppm), or higher.
This kit is available for TOC-VCSN/CPN .
Compressed air supply pressure: 300 to 700 kPa
Air consumption: approx. 300 mL/min
Dust, mist, drain liquid to be removed in advance.
Nitrogen Carrier Gas Kit
Part number 638-42054
Using this kit, which consists of an oxygen-permeating tube and a CO2 absorber, nitrogen gas can
be used as a carrier gas instead of high-purity air.This kit is available for TOC-VCSH/CPH/CSN/CPN,
TOC-VE, and ON-LINE TOC-VCSH. Purity of nitrogen gas should be 99.999% or higher.
When the kit is used, the measurement range of both TOC and IC is limited to 0 to 100mg/L.
This kit cannot be combined with the TNM-1
This kit cannot be used with the Carrier Gas Purification Kit (638-41447-01).
Gas Purifier, adsorption type
Part number 638-52824-02
This purifier eliminates impurities from cylinder gas not guaranteed to meet
the following specifications, so that it can be used as the carrier gas.
CO, CO2 , HC content: each 1 ppm max.
Gas Sample Injection Kit
Part number 638-93149-03
Incorporating this kit with TOC-VC** allows manual sample injection from a microliter
syringe. Gas or aqueous samples can be injected. The TC, carbon dioxide, and TOC of a
gas sample can be measured. (TOC is determined as (TC - CO2). CO is included in TOC.)
POC Kit
Part number 638-91066
ASI-V Magnetic Stirrer
Part number 638-67075 for 24 mL vials
Part number 638-67076 for 40 mL vials
When attached to the ASI-V Autosampler, the magnetic stirrer agitates the vial
contents to prevent precipitation of insoluble organic carbon out of the sample.
* If 24 mL vials are used, of the total 93 vials, vials No. 1 to No. 85 are stirred.
A S I - V S t i r b a rs Part number 046-00617-02 for 24 mL vials
Part number 046-00617-03 for 40 mL vials
Suspended Sample Kit
Part number for main frame 638-41460
for auto-sampler 638-93151
The TOC-VC** sample flowpath is 0.5 mm. This kit expands the flowpath to 0.8
mm to allow intake of larger suspended matter. Homogenization of the sample
to pulverize the suspended matter into as fine and uniform a state as possible
is important for the accurate measurement of samples containing suspended
matter.
External Sparge Kit
Part number 638-77152
This kit sparges the sample in the Autosampler vials for efficient NPOC
measurement.
Air Supply Pipe Set
Part number 638-41204
Includes a 20 m air supply pipe.
Small Vial Rack Set for ASI-V
Part number 638-53068
This set consists of a vial rack and 9mL vials, and enables measurements of
small sample volume. Applicable models are: TOC-VCSH/CPH/CSN/CPN.
ASI-V Magnetic Stirrer or External Sparge Kit cannot be used when this set is used.
This kit allows measurement of the purgeable organic carbon (POC) that is
driven from the sample during the sparging process at room temperature.
Ex tern a l D i men sio n s D iag ram
TOC-VWP + ASI-V + PC
470
490
TOC-Vseries
635
model S / model E : 670
model P : 635
right side
unit : mm
left side
440
400
450
90
(SSM-5000A depth 656)
670
right side
440
unit : mm
440
470
TOC-VCP + OCT-1 (2units)
635
left side
16
90
unit : mm
TOC-VCS/CP + TNM-1
290
370
100
(ASI-V depth 540)
440
100
(ASI-V depth 540)
490
TOC-VCS/WS + ASI-V + SSM-5000A
370
245
470
440
PC
440
unit : mm
160
(TNM-1 depth 240)
model S : 670
model P : 635
right side
unit : mm
Specifications
Tota l O rg a n i c Ca rb o n A n aly ze r T OC- V Series
Model
Total Organic Carbon Analyzer
PC-controlled Total Organic Carbon Analyzer
high-sensitivity
model
standard
model
high-sensitivity
model
TOC-VCSN
TOC-VCPH
TOC-VCSH
Measurement method
standalone
TOC-VE
TOC-VWS
TOC-VWP
wet oxidation/NDIR
standalone
TC:0 to 25000
IC:0 to 30000
TC:0 to 25000
IC:0 to 3000
TC:0 to 25000
IC:0 to 30000
TC:0 to 25000
IC:0 to 3000
4+g/L
50+g/L
4+g/L
50+g/L
Detection limit
Measurement
accuracy
(reproducibility)
CV 1.5% max.
standalone
PC-controlled
TC,IC,TOC,NPOC
(optional TN)
TC,IC,TOC,NPOC
aqueous sample
aqueous sample
TC:0 to 20000
IC:0 to 20000
TC:0 to 3500
IC:0 to 3500
—
0.5+g/L
CV 2% max.
(CV3% max.at
8000mg/L or higher)
CV 1.5% max.
(CV2% max.at
100mg/L or higher)
TC:
aprox. 3 mins
TC:
aprox. 3 mins
TC:
aprox. 3 mins
TC:
aprox. 3 mins
TC:aprox. 3 mins
TC:aprox. 4 mins
IC:
aprox. 3 mins
IC:
aprox. 4 mins
IC:
aprox. 4 mins
IC:
aprox. 3 mins
IC:aprox. 3 mins
IC:aprox. 4 mins
manual injection
automatic injection
10 to 2000+L
variable
10 to 150+L
variable
1 to 150+L
(requires change of syringe)
350 to 20400+L
variable
Automatic internal
acidification and sparging
Sparge gas supply
Automatic internal
acidification and sparging
dilution factor 2 to 50
none
dilution factor 2 to 50
Sample injection
automatic injection
IC pre-treatment
Automatic dilution
10 to 2000+L
variable
Carrier gas
10 to 150+L
variable
High purity air
High purity nitrogen
Gas pressure
Gas consumption
PC-controlled
Total Organic
Carbon Analyzer
PC-controlled
aqueous sample (optional solid/gas samples)
Applicable samples
Sample injection
volume
Wet oxidation
Total Organic
Carbon Analyzer
TOC-VCPN
TC,IC,TOC,NPOC
(optional POC,TN)
Measured items
Measuring time
Basic model
Total Organic
Carbon Analyzer
680 degC combustion catalytic oxidation/NDIR method
Operation method
Measurement range
(mg/L)
standard
model
300kPa
aprox.
1440 L/month
aprox.
2210 L/month
aprox.
1440 L/month
aprox.
2210 L/month
aprox.
2210 L/month
aprox.
3000 L/month(NPOC)
(operating conditions: 8 hours/day x 5days/week)
built-in
use PC
built-in
built-in
Display
built-in LCD
use PC
built-in LCD
built-in LCD
use PC
Printer
built-in
PC printer
Optional
(CENTRONICS,ESC/P)
PC printer
Operating keys
Ambient temperature range
5 to 35degC
AC100~127V±10%,MAX800VA
AC220~240V±10%,MAX1200VA
Power supply
Weight
Vial types
approx. 40kg
Number of
vials
Vial septum
Select from three types:
24mL,40mL,125mL
Optional 9mL vail rack is also available.
9mL : 93
24mL : 93
40mL : 68
125mL : 24
with dedicated septum
Sample sparging OK (if the external sparging kit is used)
Dimensions
370 x 540 x 490
W xDxH(mm) (excluding protrusions)
Weight
approx. 14 kg
AC100~127V±10%,MAX350VA
AC220~240V±10%,MAX350VA
approx. (W)440 x (D)560 x (H)450mm(excluding protrusions)
Dimensions
Autosampler ASI-V
use PC
approx. 38kg
approx. 40kg
8-Port Sampler OCT-1
TN ( Tot al Nit rogen)
unit TNM - 1
Solid sample combustion
unit SSM-5000A
Number of OCT-1 Up to 2 OCT-1 units
Connection
Measurement method Chemiluminescence
Method
Vial types
Any sample container can be used
Number of Vials 8 for a single OCT-1
16 for 2 OCT-1
Sample spurging No sparging with OCT-1
(Sparging is done in
the syringe of TOC-V)
Dimensions
Appros. 245 x 245 x 440
(excluding protrusions)
Weight
approx. 3.5 kg
Measured items TN (Total Nitrogen)
Measurement
range
0 to 4000mg/L
(0 to 200mg/L for TOC-VE)
Detection limit
5+g/L (CPH,CSH)
20+g/L (CPN,CSN,E)
TC:Catalytically aided combustion oxidation at 900°C.
IC:Pre-acidification, oven temperature: 200°C.
Measured Item TC,IC,TOC
Measuring
Range*
TC:0.1 to 30mg carbon
(1~20+g carbon in high sensitivity measurement)
IC:0.1 to 20mg carbon
Measurement
accuracy
CV3% max.
(reproducibility)
Sample Amount* 1gram-aqueous content < 0.5g
AnalysisTime*
5 to 6 minutes at a gas rate
Ozon Source Gas Air (Compressor Air, or Housing Air)
500mL/min
Measuring time approx. 4 mins.
Carrier Gas
99.9% O2 at the 500mL/min.
High-purity O2 Gas is required
for high sensitivity measurement.
Power
Requirement
100~127V or
220~240V as ordered.
700VA, 50/60Hz
Dimensions
W xDxH(mm)
approx. 450 x 656 x 290
Supplied gas
Power
Requirement
Dimensions
W xDxH(mm)
Air, pressure; 300kPa.
100~240V
100VA, 50/60Hz
approx.
160 x 235 x 400
(excluding protrusions)
Weight
approx. 8 kg
Weight
approx. 30 kg
*Will vary with sample type and
measurement condition.
17
Ideal for high-sensitivity continuous
O n -l i n e M o d els
ON-LINE TOC-VCSH
The functionality for continuous automatic
measurement has been added to the ability of
the combustion catalytic oxidation/NDIR TOC-V
Series to perform high-performance, highsensitivity measurement of organic substances.
The On-line TOC-VCSH can be used for
continuous automatic high-sensitivity
monitoring of water samples such as pure
water and tap water.
Com bines Combustion Catalytic Oxidation
at 680°C and NDIR Method
Support Software for Pharmaceutical Water
Management Applications
Combustion catalytic oxidation at 680°C oxidizes even persistent or
insoluble organic compounds. This method accurately measures any
type of organic substance not affected by interfering substances or the
sample properties such as pH or conductivity.
The On-line TOC-VCSH incorporates software for automatically
performing tests specified by Japanese Pharmacopeia (resolution test)
and USP (system suitability test). Combining the On-line TOC-VCSH
with an OCT-1 (optional) enables fully automatic testing; setting the
reagent is all that is required.
Easy Maintenan ce
Combustion catalytic oxidation at 680°C eliminates the need for
oxidizing reagents, saving the tasks of procuring and preparing
reagents. No special draining operations are needed.
Off-line Measurement Functions
A dedicated on-line measuring port is provided for easily conducting
interrupting analyses. The optional OCT-1a allow the automatic
measurement of up to 15 samples.
Wide Variety of TOC Measurement Methods
NPOC, IC, TC and TOC (TC-IC) measurements are possible with the
On-line TOC-VCSH. TN measurement is also possible by adding an
optional product. TOC and TN can be measured simultaneously.
18
monitoring of TOC
M a i n A p p l i c a t io n s
Management of pharmaceutical water
Management of ultrapure and recycled water for the semiconductor industry
Management of mains water
Impurity contamination management for all types of water used at plants (cooling water, recycled water, and boiler
water)
Sp e c i f i c a t i o n s
Measured items
NPOC (TOC by IC subtraction using acid sparging), TC, IC, TOC (TC-IC), TN (optional TNM-1 required)
Measurement method
680°C combustion catalytic oxidation/NDIR method
720°C combustion catalytic oxidation/ chemiluminescence method (when TNM-1 is connected)
Measurement range
TC: 0-500 +g/L to 0-25,000 mg/L variable
IC: 0-500 +g/L to 0-30,000 mg/L variable
Measurement cycle
Approx. 5 to 999 minutes (for NPOC measurement)
Number of measurement channels
1 channel
Reproducibility
CV 1.5% max.
Linearity
±2% F.S. max.
Zero stability
±2% F.S. max. per day
Span stability
±2% F.S. max. per day (ambient temperature fluctuations within 5°C)
Calibration cycle
Variable in the range 1 to 999 hours
Sample injection method
Automatic injection using syringe pump/slider
Sample injection volume
Variable in the range 10 to 2,000 +L
Sample dilution function
Diluted in syringe; dilution factor: 2 to 50
IC pretreatment
Automatic acidification and sparging
Carrier gas
High-purity air or oxygen (1 ppm max. of CO, CO2, or HC)
High-purity nitrogen (1 ppm max. of CO, CO2, or HC) (when using optional nitrogen gas carrier kit)
Supply pressure: Approx. 600 kPa
Flowrate: 150 mL/min (230 mL/min with sparging)
Analog output: Select from 4 to 20mA, 0 to 16mA (insulation, load resistance: 7501 max.), and 0 to 1VDC
RS-232C: Baud rate; 9,600 bps, Data length; 8 bits, Parity; none, Stop bits; 1
Measurement value upper limit and upper upper limit alarms,
system error alarm: No-voltage contact output (maximum: 5VA, 0.1A, 50V)
Measurement value output
Alarm output
Control input
Remote stopping and starting of sample measurement and calibration
Sample conditions
Flowrate: Approx. 0.1 to 1 L/min
Sample volume: 5 to 7 mL per measurement
Temperature: 0 to 90°C
Ambient temperature
5 to 35°C
Power supply
AC 100 - 127V ±10%
AC 200 - 240V ±10%
Dimensions
Approx. 440 (W) x 560 (D) x 460 (H) mm (excluding protrusions)
Weight
Approx. 40 kg
MAX
MAX
800VA 50/60 Hz
1200VA 50/60 Hz
Sp e c i a l A c c e ss o ries
Nitrogen carrier gas kit
P/N 638-42054
High-purity N2 gas (1 ppm max. of CO, CO2, or HC) can be used as the carrier gas.
*Simultaneous use of TNM-1 and this option is not possible.
*The measuring range with this option becomes 0-500+g/L to 0-100mg /L
for TC and IC both.
Sample adjustment tank
P/N 638-42053
Used when bubbles are contained within the sample.
19
The contents of this brochure are subject to change without notice.
Printed in Japan 7295-05801-50ATD